CN102135292B - Atomization photocatalysis air cleaner - Google Patents

Abstract

The invention provides an atomization photocatalysis air cleaner which comprises a fogging unit, a photocatalysis cleaning unit and a filtering unit which are connected sequentially, wherein the filtering unit comprises an air intake channel, a filtering chamber and an air outlet which is connected with the filtering chamber; the filtering chamber is filled with a filtering liquid; the inlet of the air intake channel receives mixed fog with a nanometer catalyst output by the photocatalysis cleaning unit; and the outlet of the air intake channel is arranged below the liquid level of the filtering liquid so as to separate out the nanometer catalyst in the mixed fog. Compared with the prior art, the atomization photocatalysis air cleaner can enable the air cleaning effect to be improved greatly, and the secondary pollution of the nanometer catalyst can be avoided.

Description

Atomization photocatalysis air cleaner

Technical field

The invention belongs to air purification field, specifically, the present invention relates to a kind of atomization photocatalysis air cleaner.

Background technology

Room air pollution becomes more and more problems of concern of people, to the pursuit of high-quality life, a healthy pure and fresh air environment is arranged around the inevitable requirement.Air purifier is exactly for reducing airborne pollutant, purifying air and invent.At present air purifying process commonly used has: utilize the adsorption technology, negative oxygen ion technology, photocatalysis technology, high efficiency filter technology (HighEfficiency Particulate Air Filter is abbreviated as HEPA), electrostatic precipitation technology, active oxygen technology of the material such as active carbon etc.Wherein thereby photocatalysis technology is to utilize the acting in conjunction of light and catalyst to remove a kind of new technique that airborne harmful substance purifies air.The basic principle of PHOTOCATALYTIC AIR-PURIFYING is: the photochemical catalyst absorbed energy is excited greater than the photon of its energy gap, produce electron hole pair, electronics and hole are transported to catalyst surface, thereby have the free radical of strong oxidizing property with airborne harmful substance oxidative degradation with the hydrone generation redox reaction generation that is adsorbed in catalyst surface.Wherein catalyst is the particle take nano titanium oxide as representative basically.

Present photocatalysis air purifying device generally adopts the surface to scribble net or the plate of nano titanium oxide, for example Chinese patent CN2747497Y discloses a kind of vertical light catalytic air purifier, this photocatalysis air purifying device is exactly to allow photocatalysis net or the plate of air by containing nano titanium oxide, simultaneously with xenon lamp or ultra violet lamp, utilize the moisture content that contains in the air, can realize decomposing airborne organic pollution, sterilization.But this type of photocatalysis air purifying device exists some deficiencies in essence: (1) nano particle only is present in the surface of photocatalysis net or plate, when air these nets of process or plate, only have the air that contacts with net or plate on a small quantity can be by light catalytic purifying, a large amount of air directly by and be not cleaned, so clean-up effect is not obvious, and the useful space is under-utilized.(2) under the nature, the moisture that contains in the air is fewer, particularly in the zone of drying, in the lower situation of air humidity, the moisture of photocatalyst surface seldom, thereby so that there is the hydroxyl free radical of strong oxidizing property fewer, greatly limited the effect of PHOTOCATALYTIC AIR-PURIFYING.Chinese patent CN1546914A discloses a kind of air processor that adopts the ultrasonic atomization liquid nano material in addition, and this device utilizes ultrasonic wave atomizing nozzle with the liquid nanometer atomising material, then utilizes multistage hollow fluorescent tube irradiation catalysis.But this device is designed for the air-conditioning system air cleaning, is not suitable for family's portable use.In addition, also exist obvious deficiency: the droplet that contains nanocatalyst in (1) this device is only tackled by nylon wire, because nylon wire fixes, cause inevitably having a lot of nano particles to overflow and cause secondary pollution from outlet thereby its footprint is limited; (2) this installs long-term use meeting so that the nylon catch net obstruction occurs and greatly affects air purification effect.(3) this device need to arrange a plurality of light sources, thereby has abandoned the use uviol lamp and use fluorescent lamp, causes catalytic effect greatly to descend.Because of the existing deficiency in essence of above two kinds of representational photocatalysis air purifying devices, though the technology of photocatalysis air purifying device is used at present, effect is often not obvious.

Summary of the invention

The object of the invention is to the problem that exists in the present photocatalysis air purifying device, provide a kind of and can improve clean-up effect, the atomization photocatalysis air cleaner of avoiding secondary pollution and purifying humidifier.

For achieving the above object, the invention provides a kind of atomization photocatalysis air cleaner, comprise: the unit that hazes, light catalytic purifying unit and the filter element that connect successively, the described unit that hazes is for generation of the droplet with nanocatalyst, and it is mixed the mixing fog that forms with nanocatalyst with air to be clean, described light catalytic purifying unit is used for that described mixing fog with nanocatalyst is carried out light and purifies, and exports the mixing fog after the light purification to described filter element; Described filter element comprises inlet channel and filter chamber, fill filter liquide in the described filter chamber, the entrance of described inlet channel receives the mixing fog with nanocatalyst of light catalytic purifying unit output, outlet places under the liquid level of described filter liquide, to separate the nanocatalyst in the described mixing fog, described filter chamber is provided with air outlet slit.

Wherein, the described unit that hazes comprises haze chamber and the ultrasonic pond that places the below, chamber that hazes, fill the liquid that hazes in the described chamber that hazes, the chamber that hazes is provided with the entrance of air to be clean and fog outlet, have ultrasonic day with fog in the described ultrasonic pond, the described chamber bottom of hazing contacts with liquid level in the described ultrasonic pond.

Wherein, described liquid and the filter liquide of hazing is water.

Wherein, described hazing is provided with water stream channel between chamber and the filter chamber, and filter chamber one side of described water stream channel is provided with floating valve, and the position of described water stream channel is higher than the water level in the described chamber that hazes.

Wherein, described light catalytic purifying unit comprises radiation source and transparent gyrotron, and described radiation source places in the middle of the described transparent gyrotron.

Wherein, the two ends of described transparent gyrotron export by removably connect head and the fog of the unit that hazes respectively and are connected inlet channel with filter element and are connected.

Wherein, described atomization photocatalysis air cleaner also comprises air admission unit, and described air admission unit comprises fan.

Wherein, described air admission unit also comprises air initial filter wall.

For achieving the above object, the present invention also provides a kind of atomizing photocatalysis air-cleaning humidifier, comprise: the unit that hazes, light catalytic purifying unit and the filter element that connect successively, the described unit that hazes is for generation of the droplet with nanocatalyst, and it is mixed the mixing fog that forms with nanocatalyst with air to be clean, described light catalytic purifying unit is used for that described mixing fog with nanocatalyst is carried out light and purifies, and exports the mixing fog after the light purification to described filter element; Described filter element comprises inlet channel and filter chamber, fill filter liquide in the described filter chamber, the entrance of described inlet channel receives the mixing fog with nanocatalyst of light catalytic purifying unit output, outlet places under the liquid level of described filter liquide, to separate the nanocatalyst in the described mixing fog, described filter chamber is provided with air outlet slit; Described atomizing photocatalysis air-cleaning humidifier also comprises purifying air of discharging of described filter element is added the humidifying unit of wet process.

Wherein, the described unit that hazes comprises haze chamber and the ultrasonic pond that places the below, chamber that hazes, fill the liquid that hazes in the described chamber that hazes, the chamber that hazes is provided with the entrance of air to be clean and fog outlet, have ultrasonic day with fog in the described ultrasonic pond, the described chamber bottom of hazing contacts with liquid level in the described ultrasonic pond.

Wherein, described liquid and the filter liquide of hazing is water.

Wherein, described hazing arranges water stream channel between chamber and the filter chamber, and filter chamber one side of described water stream channel is provided with floating valve, and the position of described water stream channel is higher than the water level in the described chamber that hazes.

Wherein, described light catalytic purifying unit comprises radiation source and transparent gyrotron, and radiation source places in the middle of the described transparent gyrotron.

Wherein, the two ends of described transparent gyrotron export by removably connect head and the fog of the unit that hazes respectively and are connected inlet channel with filter element and are connected.

Wherein, described atomizing photocatalysis air-cleaning humidifier also comprises air admission unit, and described air admission unit comprises fan.

Wherein, described air admission unit also comprises air initial filter wall.

Compared with prior art, the present invention has following technique effect:

1, air purification effect significantly improves.

2, can avoid the secondary pollution of nanocatalyst.

3, nanocatalyst is easy to recycle.

4, the cleaning of parts and maintenance are comparatively convenient.

5, can realize simultaneously purifying and the humidification effect.

Description of drawings

Below, describe by reference to the accompanying drawings embodiments of the invention in detail, wherein:

Fig. 1 shows the atomization photocatalysis air cleaner schematic diagram of one embodiment of the invention;

Fig. 2 shows the atomizing photocatalysis air-cleaning humidifier schematic diagram of another embodiment of the present invention.

The drawing explanation:

1--nanocatalyst entrance 2--water inlet 3--circuit control panel

Ultrasonic day with fog 6--of 4--fan 5--air initial filter wall

The ultrasonic pond 8--of the 7--chamber 9--liquid level cuing scale that hazes

10--fog outlet 11--xenon lamp or the transparent gyrotron of uviol lamp 12--

A removably connect 14--nano particle of 13--filters a mouthful 15--floating valve

16--delivery port 17--filter chamber 19--water inlet

Haze ultrasonic day with fog 22--of humidification chamber 21--humidifying air outlet of 20--

23--air induction conduit 24--concave structure

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

According to one embodiment of present invention, provide a kind of atomization photocatalysis air cleaner, this air purifier comprises air admission unit, the unit that hazes, clean unit and filter element.

As shown in Figure 1, air admission unit comprises air initial filter wall 6, inlet channel and fan 4, and air initial filter wall 6 can tentatively filter air.Inlet channel connects the unit that hazes, in order to unit that air input to be clean is hazed.Fan 4 is arranged in the inlet channel to increase the flow velocity of air.In case of necessity, circuit control panel 3 can also be set so that fan 4 is controlled, and then regulate the flow velocity of air.Certainly, in the air admission unit of present embodiment, air initial filter wall 6 and fan 4 also can use separately separately.In other embodiment that comparatively simplifies, can also omit described air admission unit, the unit that directly air input to be clean hazed gets final product, and this is that those skilled in the art are understandable.

Hazing, the unit comprises ultrasonic day with fog 5, ultrasonic pond 7, chamber 8 and liquid level cuing scale 9 haze.The chamber 8 that hazes is provided with nanocatalyst entrance 1, is used for putting into nanocatalyst, and nano-catalyst material is mainly titanium dioxide, zinc oxide, aluminium oxide or iron oxide etc.Hazing fills the liquid that hazes in the chamber 8, and present embodiment can adopt water as hazing liquid.Ultrasonic pond 7 places 8 belows, chamber that haze, and ultrasonic day with fog 5 places ultrasonic pond 7, and ultrasonic pond 7 is designed to drawing and pulling type, is convenient to so the additional liquid as ultrasonic carrier toward 7 the insides, ultrasonic pond, and in the present embodiment, this liquid also can adopt water.Liquid level cuing scale 9 places in the chamber 8 that hazes, for the liquid level position of measuring in the chamber 8 that hazes.Haze and also be provided with fog outlet 10 on the chamber 8, can under the drive of air to be clean, enter clean unit by this fog outlet 10 with the fog of nanocatalyst.In general, the chamber concave structures 24 of 8 bottom design (as shown in Figure 1) that haze, this concave structure immerse in the liquid in ultrasonic pond 7 (be about to this concave structure place the liquid level in ultrasonic pond 7 following), so that accept ultrasonic energy.Haze and to be provided for the delivery port 16 of draining on the chamber 8.What deserves to be explained is that the design of the above-mentioned unit that hazes not is unique, the present invention also can adopt the unit that hazes of other kind, and this is that those skilled in the art are understandable.

Clean unit comprises xenon lamp or uviol lamp 11 and transparent gyrotron 12.The two ends of transparent gyrotron 12 connect respectively the air induction conduit 23 (this air induction conduit 23 will be described below, and repeats no more) of fog outlet 10 and filter element here.Xenon lamp or uviol lamp 11 place in the middle of the described transparent gyrotron 12, are used for shining the air to be clean of transparent gyrotron 12 and the mixture of fog, make airborne harmful substance oxidative degradation to be clean.In the present embodiment, xenon lamp or uviol lamp 11 also can be by circuit control panel 3 controls, thereby reach the purpose such as capable of regulating illumination intensity.In addition, in a preferred embodiment, can also arrange respectively at the two ends of transparent gyrotron 12 and removably connect 13,13 be connected air induction conduit 23 with filter element with fog outlet 10 respectively and be connected by removably connecting again, be convenient to like this cleaning of transparent gyrotron 12.

Filter element comprises air induction conduit 23, filter chamber 17 and air outlet slit 18.Fill filter liquide in the filter chamber 17.The outlet of air induction conduit is that nano particle filters mouth 14, and nano particle filters mouth 14 and places under the liquid level of filter liquide.Air with after clean unit is processed, enter air induction conduit 23 with the mixture of the droplet of the nanocatalyst particles fog that mixes of nanocatalyst particles (namely with), filter mouthful 14 places at nano particle, purified air and separated with droplet, nanocatalyst in the droplet is stayed in the filter liquide, form suspension, purified air and discharged the liquid level of filter liquide with the form of bubble.On the filter chamber 17 air outlet slit is set, is used for release and purifies air.The area of air outlet slit 18 can suitably increase so that purified air and evenly discharge, as shown in Figure 1.In the present embodiment, can adopt water as filter liquide, filter liquide can be general with the liquid that hazes like this, between chamber 8 and the filter chamber 17 water stream channel can be set hazing, and in general, should make the position of this water stream channel be higher than water level in the chamber 8 that hazes.Filter chamber one side at this passage arranges floating valve 15, when the water level of filter chamber 17 reach a certain height, floating valve 15 was opened, and the water of filter chamber 17 enters the chamber 8 that hazes by described water stream channel, in for chamber 8 supplementing water that haze, reached the purpose of recycling nanocatalyst.What deserves to be explained is that the present invention is not limited to above-mentioned way.The present invention also can use other haze liquid and filter liquide, and the liquid that hazes can be different with filter liquide, and this is that those skilled in the art are understandable.

The below further describes the concrete operation method of the atomization photocatalysis air cleaner of present embodiment.At first nanocatalyst is poured in the chamber 8 that hazes by entrance 1.Then inject clear water by water inlet 2, the water level in the lifting filter chamber gradually after water is injected in the filter chamber 17, after water level was raised to a certain degree, floating valve 15 was opened valve because carrying in the buoyancy, thus the water in the filter chamber 17 can flow in the chamber 8 that hazes.The user can control by transparent liquid level cuing scale 9 water yield of adding.Then the ultrasonic pond 7 of drawing and pulling type is pulled out, fill inside water, water level need surpass the height of the concave structure of haze chamber 8 and 7 junctions, ultrasonic pond, and ultrasonic pond inwall indicates the lowest water level line that satisfies this condition.Then by the switch open fan 4 on the circuit control panel 3, the air in the external world is tentatively filtered the inside of rear suction clarifier via air initial filter wall 6.At last by switch open xenon lamp or uviol lamp 11 and ultrasonic day with fog 5 on the control panel 3.Afterwards, the water slurry that is mixed with nanocatalyst in the chamber 8 that hazes can be hazed by ultrasonic, is full of the mist that is comprised of the micron order water droplet that is enclosed with nanocatalyst in the chamber 8 that hazes thereby make.The air that these droplets are sucked by the external world blows to fog outlet 10, thereby enters round xenon lamp or the ultraviolet lamp tube 11 sinuous transparent gyrotrons 12 that spiral.In transparent gyrotron, air and fog have passed through the one section very long electrical distance that is subjected to, and air has carried out the most sufficient the contact with droplet with nanocatalyst.Under the effect of xenon lamp or uviol lamp, the countless droplets that are wrapped in nanocatalyst have produced the hydroxyl free radical with strong oxidizing property of huge amount, thereby decompose up hill and dale airborne various pollutant, degerming.Air after the purification is accompanied by below the water surface that the fog that has reacted has been blown to filter chamber 17, thereby so that fog and wherein more remaining nanocatalysts all be retained in the water, only have clean air just can filter mouthfuls 14 from nano particle with the form of bubble and overflow again the water surface after out.Thereby the water in the filter chamber 17 has played nanocatalyst that the elimination previous stage brings and the effect of fog of crossing at this moment.Air behind the final purification can be blown toward air outlet slit 18 because of gas pressure.Along with increasing also of the mist that enters can the lifting water level, can replenish moisture because of the fog loss in the chamber 8 thereby allow water be back to haze so that floating valve is opened in the filter chamber 17, guarantee that then long-time continuous uses.In the process of using, the user can be as required by the control of the knob on circuit control panel intake, and the light intensity magnitude of haze power and xenon lamp or ultraviolet lamp tube is regulated outgassing rate, air cleaning intensity etc.When not using this clarifier, can by inject more clear water toward water inlet 2, open simultaneously delivery port 16 and discharge the suspension of the inside and clean inner cavity chamber.Can extract ultrasonic pond 7 out outwell the inside water.If transparent gyrotron 12 needs to change, only transparent gyrotron 12 need to be taken out and change new getting final product from removably connecting 13.

Present embodiment is vertical design, is convenient to indoor use, and is simple to operate.Present embodiment adopts the form that comprises catalyzing nano-particles in the fog, can greatly strengthen contacting between nanocatalyst, water, light and the air, thereby more effectively purifies air than net or the plate that traditional surface is coated with nano particle.And water smoke is provided in the present embodiment, increased than the moisture that contains in the air under the nature many, thereby can provide enough hydroxyl free radicals to purify air.In addition, present embodiment has been owing to adopted the design of transparent gyrotron, both ensured the time enough photocatalysis airborne pollutant of fully degrading, and greatly saved again the space, and only needed a light source, therefore can directly adopt uviol lamp.Thereby thoroughly overcome among the Chinese patent CN1546914A drawback that reduces owing to the photocatalysis efficiency that needs a plurality of light sources to have to abandon to adopt uviol lamp to bring.Present embodiment can thoroughly be removed the nano particle that is mixed with in the fog by the method for water filtration.Thereby present embodiment can either guarantee nano particles a large amount of when photocatalysis can be directly and light, water, air interact, can guarantee again not contain any nano particle in the light catalytic purifying air later.

According to another embodiment of the invention, provide a kind of atomizing photocatalysis air-cleaning humidifier.As shown in Figure 2, this embodiment is that the basis of the atomization photocatalysis air cleaner (as shown in Figure 1) at first embodiment has increased humidifying unit, and humidifying unit includes the mouth of a river 19, the humidification chamber 20 that hazes, ultrasonic day with fog 21 and humidifying air outlet 22.The humidification chamber 20 that hazes is communicated with the filter chamber 17 of filter element, is used for receiving the air that has purified.The remainder of present embodiment and first embodiment are in full accord, repeat no more here.

When concrete operations, air from filter chamber 17 after out the purification hazes because gas pressure is blown in the humidification chamber 20, and the water smoke that produces in the humidification chamber 20 that will haze blows out final purification and the humidification function of having realized simultaneously air by humidifying air outlet 22.In the process of using, the user can add wet strength by the control of the knob on the circuit control panel as required.All the other methods of operating are then in full accord with first embodiment, repeat no more here.

Increase damping device in the present embodiment, clean air not only is provided but also can be simultaneously indoor humidification, thereby possessed simultaneously the function of air purifier and humidifier.And, because present embodiment directly adds wet process to purifying air, the problem that is easy to the pollutant such as breed bacteria that can avoid therefore that humidifying air causes.

It should be noted last that above embodiment is only unrestricted in order to technical scheme of the present invention to be described.Although with reference to embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that, technical scheme of the present invention is made amendment or is equal to replacement, do not break away from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of the claim scope of the present invention.

Claims (16)

1. atomization photocatalysis air cleaner, it is characterized in that, comprise: the unit that hazes, light catalytic purifying unit and the filter element that connect successively, the described unit that hazes is for generation of the droplet with nanocatalyst, and it is mixed the mixing fog that forms with nanocatalyst with air to be clean, described light catalytic purifying unit is used for that described mixing fog with nanocatalyst is carried out light and purifies, and exports the mixing fog after the light purification to described filter element; Described filter element comprises inlet channel and filter chamber, fill filter liquide in the described filter chamber, the entrance of described inlet channel receives the mixing fog of described light catalytic purifying unit output, outlet places under the liquid level of described filter liquide, to separate the nanocatalyst in the described mixing fog, described filter chamber is provided with air outlet slit.

2. atomization photocatalysis air cleaner according to claim 1, it is characterized in that, the described unit that hazes comprises haze chamber and the ultrasonic pond that places the below, chamber that hazes, fill the liquid that hazes in the described chamber that hazes, the chamber that hazes is provided with the entrance of air to be clean and fog outlet, have ultrasonic day with fog in the described ultrasonic pond, the bottom in the described chamber that hazes contacts with liquid level in the described ultrasonic pond.

3. atomization photocatalysis air cleaner according to claim 2 is characterized in that, described liquid and the filter liquide of hazing is water.

4. atomization photocatalysis air cleaner according to claim 3, it is characterized in that, described hazing arranges water stream channel between chamber and the filter chamber, and filter chamber one side of described water stream channel is provided with floating valve, and the position of described water stream channel is higher than the water level in the described chamber that hazes.

5. atomization photocatalysis air cleaner according to claim 1 is characterized in that, described light catalytic purifying unit comprises radiation source and transparent gyrotron, and described radiation source places in the middle of the described transparent gyrotron.

6. atomization photocatalysis air cleaner according to claim 5 is characterized in that, the two ends of described transparent gyrotron export by removably connect head and the fog of the unit that hazes respectively is connected inlet channel and is connected with filter element.

7. atomization photocatalysis air cleaner according to claim 1 is characterized in that, described atomization photocatalysis air cleaner also comprises air admission unit, and described air admission unit comprises fan.

8. atomization photocatalysis air cleaner according to claim 7 is characterized in that, described air admission unit also comprises air initial filter wall.

9. atomizing photocatalysis air-cleaning humidifier, it is characterized in that, comprise: the unit that hazes, light catalytic purifying unit and the filter element that connect successively, the described unit that hazes is for generation of the droplet with nanocatalyst, and it is mixed the mixing fog that forms with nanocatalyst with air to be clean, described light catalytic purifying unit is used for that described mixing fog with nanocatalyst is carried out light and purifies, and exports the mixing fog after the light purification to described filter element; Described filter element comprises inlet channel and filter chamber, fill filter liquide in the described filter chamber, the entrance of described inlet channel receives the mixing fog with nanocatalyst of light catalytic purifying unit output, outlet places under the liquid level of described filter liquide, to separate the nanocatalyst in the described mixing fog, described filter chamber is provided with air outlet slit; Described atomizing photocatalysis air-cleaning humidifier also comprises purifying air of discharging of described filter element is added the humidifying unit of wet process.

10. atomization photocatalysis air cleaner according to claim 9, it is characterized in that, the described unit that hazes comprises haze chamber and the ultrasonic pond that places the below, chamber that hazes, fill the liquid that hazes in the described chamber that hazes, the chamber that hazes is provided with the entrance of air to be clean and fog outlet, have ultrasonic day with fog in the described ultrasonic pond, the bottom in the described chamber that hazes contacts with liquid level in the described ultrasonic pond.

11. atomization photocatalysis air cleaner according to claim 10 is characterized in that, described liquid and the filter liquide of hazing is water.

12. atomization photocatalysis air cleaner according to claim 11, it is characterized in that, described hazing arranges water stream channel between chamber and the filter chamber, and filter chamber one side of described water stream channel is provided with floating valve, and the position of described water stream channel is higher than the water level in the described chamber that hazes.

13. atomization photocatalysis air cleaner according to claim 12 is characterized in that, described light catalytic purifying unit comprises radiation source and transparent gyrotron, and described radiation source places in the middle of the described transparent gyrotron.

14. atomization photocatalysis air cleaner according to claim 13 is characterized in that, the two ends of described transparent gyrotron export by removably connect head and the fog of the unit that hazes respectively is connected inlet channel and is connected with filter element.

15. atomization photocatalysis air cleaner according to claim 9 is characterized in that, described atomization photocatalysis air cleaner also comprises air admission unit, and described air admission unit comprises fan.

16. atomization photocatalysis air cleaner according to claim 15 is characterized in that, described air admission unit also comprises air initial filter wall.

Images